共查询到19条相似文献,搜索用时 203 毫秒
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基于P-Y曲线法的水平受荷桩非线性有限元分析 总被引:5,自引:1,他引:4
P-Y曲线法是一种非线性地基反力法,它考虑了土的非线性特性、分层特性、不同土类及荷载类型等因素,适用于分析横向荷载作用下有较大变位的桩结构物。从Newmark方法弹簧支座的概念出发,建立了桩土相互作用体系的接触非线性有限元分析模型,采用复合地基反力法的P-Y曲线公式,推导了作用于桩上的非线性弹簧弹性系数的计算公式,基于marc有限元软件编制了相应的计算程序,基于一阶Taylor随机有限元的思想,给出了土性参数对泥面位移的敏感性计算公式,结合试桩资料的计算结果验证提出方法是合理可行的。 相似文献
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桩-土相互作用影响的模型试验研究 总被引:5,自引:2,他引:3
通过将模型试验、现场实测的结果与弹性理论解进行对比,指出弹性理论解夸大了桩-桩、桩-土、土-土相互作用影响,造成沉降计算值偏大和过高估计桩顶反力的不均匀性(或筏底地基土反力的不均匀性),并提出对弹性理论解进行修正的途径和方法。 相似文献
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将地震液化场地分为地表的上覆未液化土层、底部的未液化基层以及夹在两者之间的液化土层,基于桩-土相互作用的非线性Winkler模型,考虑桩弯曲的非线性弯矩-曲率本构关系和桩的几何非线性变形,建立了液化土层横向扩展下桩非线性大挠度变形的基本控制方程,并利用打靶法进行了数值求解。同时,给出了桩线弹性小变形情形下的解析解。通过与非线性有限元解和线弹性小变形解析解的比较,验证了文中打靶法的有效性和可靠性。用数值方法分析了液化土层横向扩展对桩力学性能的影响,结果表明:非线性桩-土相互作用和桩材料非线性效应强于桩的几何非线性效应,随着液化土层横向扩展位移的增加,几何非线性效应逐渐增大,此时,应采用完全非线性模型进行桩力学行为的分析。 相似文献
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根据陡坡段桥梁基桩承载特性,提出了一种可考虑桩土非线性作用的基桩内力与位移分析有限杆单元方法。首先,基于单元划分结果,结合桩侧摩阻力和坡体侧向推力的分布规律,得到了相应的等效结点荷载向量表示方法;其次,在线弹性地基反力法的基础上,引入p-y曲线开展了桩周土抗力非线性分析,并结合桩身P-?效应(P为桩顶轴向荷载,?为桩顶水平位移)计算方法给出了单元刚度矩阵修正方法,进而提出了适用于基桩内力位移非线性分析的有限杆单元法并编制了MATLAB计算程序;最后,结合某工程实例,将计算结果与工程实测值及已有理论值进行对比。结果表明:考虑桩土非线性作用的计算方法是合理的;当桩身具有自由段时,P-?效应对基桩内力位移的影响较大,在实际工程设计中不可忽视。 相似文献
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桩-土相互作用问题是岩土工程桩基础问题的关键点与难点,目前针对桩身在循环温度荷载与上覆结构荷载双重作用下的能源桩承载特性研究较少。在传统理想弹塑性模型及双曲线模型的基础上,采用分段非线性的方法对桩-土荷载传递骨干曲线进行了修正,并基于Masing’s循环准则,提出了适用于能源桩的桩-土荷载传递模型。利用改进的桩-土荷载传递模型对能源桩承载特性进行数值分析,着重研究了桩-土荷载传递参数比R对能源桩受力情况的影响。此外,为了探究在上覆结构荷载及循环温度荷载双重作用下,能源桩与周围土体之间的真实荷载传递关系及其结构热力学特性,开展了针对能源桩与周围土体之间相互作用问题的室内模型试验,监测了其桩身轴向应力及侧摩阻力随温度及深度变化的趋势,并与基于改进荷载传递模型的数值计算结果进行了对比。室内模型试验监测及数值计算结果显示:能源桩在上覆结构荷载及温度循环荷载双重作用下,其受力行为受改进的桩-土荷载传递循环曲线控制;基于改进的桩-土荷载传递循环曲线而建立的数值模型计算结果与试验结果基本吻合,改进的桩-土荷载传递模型能够较好发地反映能源桩实际的承载特性。 相似文献
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基于Laplace变换,对层状地基中桩土横向振动阻抗计算问题进行了研究。考虑土层天然分层的特性及桩顶轴向力的参与作用,结合频域内桩-土动力文克尔理论,采用传递矩阵法并通过拉普拉斯变换,将振动微分方程变成代数方程以求解桩的横向振动响应参数,并导出了单桩横向振动阻抗。基于所得解,进一步计算出桩-土-桩水平动力相互作用因子。通过实例分析对比,验证其有效性和可行性。该方法计算工作量小,易于理解,计算结果与已有结果具有良好的一致性,并能保证解的连续性,对桩-土动力相互作用的研究具有一定的实用意义。 相似文献
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深基坑排桩预应力锚杆支护工程中,作用于桩身的土压力与桩身位移呈非线性变化。对于这种非线性变化问题,基于位移土压力模型,考虑支护结构位移的影响,推导了混合法计算公式。混合法可以有效跟踪支护结构的变形过程,反映土体与桩之间的非线性作用关系。结合工程实例,编制了MATLAB计算程序,计算结果较好地反映了土压力与桩身位移之间的非线性变化关系,并与理正软件计算结果进行对比分析,结果表明两者吻合较好,从而证明该计算方法具有较好的适用性,对深基坑支护结构设计有较好的参考价值。 相似文献
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基于Poulos理论和Winkler地基反力法,通过考虑关联性的土弹簧来模拟桩土相互作用,提出了滑动土体与邻近桩基相互作用的弹塑性解。将桩体在滑动面处分成被动和主动两部分,桩和周围土体相互作用通过p-δ和p-y曲线(p为桩身产生的压力,δ为桩-土相对位移,y为桩身位移)来模拟,采用侧向位移影响系数矩阵和巴氏模型分别考虑被动部分和主动部分土弹簧间的关联性,p-δ、p-y本构关系均采用理想弹塑性模型。工程算例分析表明,提出的方法与实测结果吻合较好,该方法应用于土体滑动条件下被动桩基的受力分析是可行的。 相似文献
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大面积堆填或开挖时深厚软土地层内部常产生较大滑移,这为该类地层中考虑桩土作用的抗滑桩分析带来较大困难。考虑深厚软土的滑移性状,针对既有悬臂桩法计算存在的问题进行修正,滑动面上部桩身受荷段的桩身荷载采用等腰三角形分布且极值点为极限侧土压力,设滑动面下部桩身锚固段上侧桩周软土为理想弹塑性以考虑软土大位移条件,下侧为弹性状态,并通过位移叠加原理对传统方法求解产生滑动面不连续的缺陷进行修正。通过现场桩侧堆载试验验证,修正悬臂桩法的弯矩和位移计算结果较好,桩顶位移误差小于3%,桩身最大弯矩误差小于10%。所提方法有助于深厚软土地层抗滑桩的设计和计算。 相似文献
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群桩中各基桩在地基土中的加筋与遮帘效应是客观存在的,然而,在目前的桩基沉降理论与实践中,相关的研究仍显不足。基于剪切变形法理论,考虑桩的加筋与遮帘效应,求得各基桩在自身桩顶荷载作用下产生的沉降以及其引起相邻桩的附加沉降量,由此提出群桩中任两桩的相互作用系数简化公式,同时,也得到各基桩桩侧及桩端桩-土接触等效弹簧刚度,并基于荷载传递法原理,建立了成层地基条件下各基桩在自身桩顶荷载作用下的桩身位移平衡方程,推导出各土层层顶处桩身沉降、轴力与层底处桩身沉降、轴力之间的递推关系,进而将公式推广到高、低承台群桩基础计算中。工程算例分析表明,用该方法计算有较高的精度,求得的荷载-沉降曲线及两桩相互作用系数与实测值吻合较好;相互作用系数要明显小于弹性理论计算结果。 相似文献
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《Geomechanics and Geoengineering》2013,8(4):263-282
Vertical loads effect on the lateral response of a 3×5 pile group embedded in sand is studied through a two-dimensional finite element analysis. The soil-pile interaction in three-dimensional type is idealized in the two-dimensional analysis using soil-pile interaction springs with a hysteretic nonlinear load displacement relationship. Vertical loads inducing a vertical pile head displacement of 0.1-pile diameter increase the lateral resistance of the single pile at a 60 mm lateral deflection by 8%. Vertical loads inducing the same vertical displacement applied to a pile group spaced at 3.92-pile diameter increase the overall lateral resistance by 9%. The effect on individual piles, however, depends on the pile position. The vertical load decreases the lateral resistance of the leading pile (pile 1) by 10% and increases the lateral resistances of piles 2, 3, 4, and 5 by 9%, 14%, 17%, and 35%, respectively. Vertical loads applied to the pile group increase the confining pressures in the sand deposit confined by the piles but the rate of increase in those outside the group is relatively small, resulting in the difference in a balance of lateral soil pressures acting at the back of and in front of the individual pile. 相似文献
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This study used model pile load testing and numerical analysis to investigate the experimental analysis results of pile and soil responses for lateral load testing due to the flexural yielding of a pile, and to examine the applicability of the distributed plastic hinge model to the numerical simulation of inelastic pile response. A lateral load test on an aluminum model pile in sand was conducted as an analysis case. The pile was loaded to a large lateral pile-head displacement, a displacement under which some of the pile sections yielded and thus the pile had inelastic flexural deformation. The test results showed that before the pile yielded, the depth of maximum moment increased with increasing load due to soil nonlinearity; after the pile yielded, the depth of maximum moment varied less and the plastic region expanded upward and downward around this depth with increasing pile displacement. In deducing the responses of the pile and soil for the pile-soil system, the actual nonlinear flexural rigidity of the pile section built based on the bending test was essential to retrieve rational ones. In addition, the distributed plastic hinge model was shown to be effective to model the inelastic pile responses and capture the development of plastic zones in the pile. 相似文献
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Analysis of piles subjected to lateral soil movements using a three‐dimensional displacement approach 
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下载免费PDF全文 Hiroyoshi Hirai 《国际地质力学数值与分析法杂志》2016,40(2):235-268
An analytical approach using the three‐dimensional displacement of a soil is investigated to provide analytical solutions of the horizontal response of a circular pile subjected to lateral soil movements in nonhomogeneous soil. The lateral stiffness coefficient of the pile shaft in nonhomogeneous soil is derived from the rocking stiffness coefficient that is obtained from the analytical solution, taking into account the three‐dimensional displacement represented in terms of scalar potentials in the elastic three‐dimensional analysis. The relationship between horizontal displacement, rotation, moment, and shear force of a pile subjected to lateral soil movements in nonhomogeneous soil is obtainable in the form of the recurrence equation. For the relationship between the lateral pressure and the horizontal displacement, it is assumed that the behavior is linear elastic up to lateral soil yield, and the lateral pressure is constant under the lateral soil yield. The interaction factors between piles subjected to both lateral load and moment are calculated, taking into account the lateral soil movement. The formulation of the lateral displacement and rotation of the pile base subjected to lateral loads in nonhomogeneous soils is presented by taking into account the Mindlin equation and the equivalent thickness for soil layers in the equivalent elastic method. For lateral movement, lateral pressure, bending moment, and interaction factors, there are small differences between results obtained from the 1‐D and the 3‐D displacement methods except a very flexible pile. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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This article presents a method for the nonlinear analysis of laterally loaded rigid piles in cohesive soil. The method considers the force and the moment equilibrium to derive the system equations for a rigid pile under a lateral eccentric load. The system equations are then solved using an iteration scheme to obtain the response of the pile. The method considers the nonlinear variation of the ultimate lateral soil resistance with depth and uses a new closed‐form expression proposed in this article to determine the lateral bearing factor. The method also considers the horizontal shear resistance at the pile base, and a bilinear relationship between the shear resistance and the displacement is used. For simplicity, the modulus of horizontal subgrade reaction is assumed to be constant with depth, which is applicable to piles in overconsolidated clay. The nonlinearity of the modulus of horizontal subgrade reaction with pile displacement at ground surface is also considered. The validity of the developed method is demonstrated by comparing its results with those of 3D finite element analysis. The applications of the developed method to analyze five field test piles also show good agreement between the predictions and the experimental results. The developed method offers an alternative approach for simple and effective analysis of laterally loaded rigid piles in cohesive soil. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
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水平荷载下导管架平台桩基础的非线性有限元分析 总被引:2,自引:0,他引:2
导管架平台桩基础的控制荷载主要为风荷载、波浪荷载、地震荷载等水平荷载,为研究水平荷载下导管架平台桩基础的承载特性,采用非线性有限元分析方法对水平荷载下桩-土之间的相互作用进行研究,提出了有效模拟桩基水平承载特性的有限元模型,分析了模型桩的刚度、直径、土质参数中水平土压力系数、剪胀角对桩基承载特性的影响及水平荷载下群桩承载特性,并将有限元计算结果与API规范及模型试验结果进行对比。研究结果表明,非线性有限元分析方法分析水平荷载下桩-土相互作用是可行的,计算结果可为导管架平台的桩基设计提供参考。 相似文献
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软基高桥台桩-土相互作用计算新方法研究 总被引:3,自引:0,他引:3
在软土地基桥台台后高路堤填土会引起下卧软土层产生水平塑流,对桥台桩基产生可观的侧压力。如何计算因软土塑性流动对桩产生的侧压力,是软土地基高桥台桩基设计中尚未解决的难点问题之一。通过分析对比研究,提出应用极限土压力法求解流塑区桥台桩基侧土压力,建立了可以考虑地基土成层特性、桩-土体系参数、侧压力沿深度任意变化的桥台-桩基系统分析力学模型,推导了求解桥台和桩基内力、位移值的新方法,该方法运算过程采用矩阵相乘,适于编程计算,比较一般理论方法和复杂的有限元法,其计算简单,需要的计算参数较少,实用价值更好。结合工程实例,采用MATLAB语言,编写了桥台桩基内力位移计算程序,验证了方法的准确性和可靠性,可供软土地基高桥台桩基设计计算时参考。 相似文献